Implement uniform generational genetic algorithm

This commit is contained in:
coolneng 2021-06-20 05:18:36 +02:00
parent b4a299cbf7
commit 1e5f02e5ce
Signed by: coolneng
GPG Key ID: 9893DA236405AF57
1 changed files with 22 additions and 13 deletions

View File

@ -4,6 +4,7 @@ from pandas import DataFrame
from math import ceil
from functools import partial
from multiprocessing import Pool
from copy import deepcopy
from preprocessing import parse_file
@ -169,7 +170,7 @@ def mutate(offspring, data, probability=0.001):
return offspring
def get_individual_index(population, element):
def get_individual_index(element, population):
for index in range(len(population)):
if population[index].fitness.values[0] == element.fitness.values[0]:
return index
@ -178,25 +179,33 @@ def get_individual_index(population, element):
def tournament_selection(population):
individuals = [population[randint(len(population))] for _ in range(2)]
best_element = max(individuals, key=lambda x: x.fitness.values[0])
population_index = get_individual_index(population, best_element)
population_index = get_individual_index(best_element, population)
return best_element, population_index
def generational_replacement(previous_population, current_population):
def check_element_population(element, population):
for item in population:
if all(element.point.values) == all(item.point.values):
return True
return False
def generational_replacement(prev_population, current_population):
new_population = current_population
best_previous_individual = max(previous_population, key=lambda x: all(x.fitness))
if best_previous_individual not in new_population:
worst_index = new_population.index(
min(new_population, key=lambda x: all(x.fitness))
)
best_previous_individual = max(prev_population, key=lambda x: x.fitness.values[0])
if check_element_population(best_previous_individual, new_population):
worst_element = min(new_population, key=lambda x: x.fitness.values[0])
worst_index = get_individual_index(worst_element, new_population)
new_population[worst_index] = best_previous_individual
return new_population
def get_best_elements(population):
first_index = population.index(max(population, key=lambda x: all(x.fitness)))
first_element = max(population, key=lambda x: x.fitness.values[0])
first_index = get_individual_index(first_element, population)
population.pop(first_index)
second_index = population.index(max(population, key=lambda x: all(x.fitness)))
second_element = max(population, key=lambda x: x.fitness.values[0])
second_index = get_individual_index(second_element, population)
return first_index, second_index
@ -231,7 +240,7 @@ def evaluate_population(population, data, cores=4):
def select_parents(population, n, mode):
select_population = population
select_population = deepcopy(population)
parents = []
if mode == "generational":
for _ in range(n):
@ -255,8 +264,8 @@ def genetic_algorithm(n, m, data, select_mode, crossover_mode, max_iterations=10
offspring = mutate(offspring, data)
population = replace_population(population, offspring, select_mode)
population = evaluate_population(population, data)
best_solution, _ = get_best_elements(population)
return best_solution
best_index, _ = get_best_elements(population)
return population[best_index]
n, m, data = parse_file("data/GKD-c_11_n500_m50.txt")